The main theme of the Organic chemistry 2018 is “Scientific Breakthrough and Advanced Perspective in Organic Chemistry”. Organic chemistry is a field of science in which chemists study the structure, properties, composition, reactions to create new molecules and explore the properties of existing compounds. The conference covers the wide range of expertise in the field of chemistry encouraging researchers for presentation, communication and discussion of research results carried out in academia and industry.

The conference welcomes all the Eminent leaders of chemistry and Professors to share their experiences, we are open for all the scientists from all over the globe with their new findings. We encourage young researchers, students to participate and share their ideas at the conference. We are also honor to welcome Directors, VP, Head of technology from industries, R&D Analytical Chemist, Life Sciences Specialist, and Exhibitors are also welcoming to exhibit their projects and products.

About City

Ireland is an island in the North Atlantic. It is the third-largest island in Europe, and the twentieth-largest on Earth. The current population of Ireland is 4.773 million. Dublin is the capital and largest city of Ireland.

Dublin experiences a maritime climate with cool summers, mild winters, and a lack of temperature extremes. The average maximum January temperature is 8.8 °C (48 °F), while the average maximum July temperature is 20.2 °C (68 °F). July and August are the warmest months of the year in Ireland.

Places to visit in Dublin:

1. Dublin Castle

2. Carrick-on-Shannon

3. The Cliffs of Moher

4. Blarney Castle

5. Kilkenny City

6. Loch Ness

7. Giant's Causeway

SESSIONS/TRACKS

It refers to a discipline of organic chemistry that focuses on the relationship between chemical structures and reactivity, in particular, applying experimental tools of physical chemistry to the study of organic molecules. Specific focal points of study include the rates of organic reactions, the relative chemical stabilities of the starting materials, reactive intermediates, transition states, and products of chemical reactions, and non-covalent aspects of solvation and molecular interactions that influence chemical reactivity.

Organic chemistry is the study of the structure, properties, and reactions of organic compounds and organic materials. The work done by modern organic chemists impacts almost every aspect of human life, and the production of useful organic molecules remains one of the world's most profitable industries.

Bioorganic chemistry is a rapidly growing scientific discipline that combines organic chemistry and biochemistry. However medicinal chemistry in its most common practice focusing on small organic molecules encompasses synthetic organic chemistry and aspects of natural products and computational chemistry in close combination with chemical biology, enzymology and structural biology, together aiming at the discovery and development of new therapeutic agents. It employs organic chemistry to explain how enzymes catalyze the reactions of metabolic pathways and why metabolites react the way they do. It aims to expand organic-chemical research on structures, synthesis, and kinetics in a biological direction.

Organocatalysis refers to a form of catalysis, whereby the rate of a chemical reaction is increased by an organic catalyst referred to as an "organocatalyst" consisting of carbon, hydrogen, sulfur and other nonmetal elements found in organic compounds.Organocatalysts which display secondary amine functionality can be described as performing either enamine catalysis (by forming catalytic quantities of an active enamine nucleophile) or iminium catalysis (by forming catalytic quantities of an activated iminium electrophile). This mechanism is typical for covalent organocatalysis. The advantages of organocatalysts include their lack of sensitivity to moisture and oxygen, their ready availability, low cost, and low toxicity, which confers a huge direct benefit in the production of pharmaceutical intermediates when compared with (transition) metal catalysts.

Organic reactions are chemical reactions involving organic compounds. The basic organic chemistry reaction types are addition reactions, elimination reactions, substitution reactions, pericyclic reactions, rearrangement reactions, photochemical reactions and redox reactions. In organic synthesis, organic reactions are used in the construction of new organic molecules. The production of many man-made chemicals such as drugs, plastics, food additives, fabrics depend on organic reactions. Organic reactions are also important in the production of pharmaceuticals.

Organic Synthesis is constructing a target molecule ranging from complex, biologically active natural products to new materials. Organic molecules often contain a higher level of complexity than purely inorganic compounds, so that the synthesis of organic compounds has developed into one of the most important branches of organic chemistry.

Supramolecular chemistry is the area of chemistry which deals with secondary interactions rather than covalent bonds in molecules and focuses on the chemical systems made up of a discrete number of assembled molecular subunits or components. It is use for the better understanding of protein structure as well as other biological processes.

Nanomaterial-based catalysts are usually heterogeneous catalysts broken up into metal nanoparticles to speed up the catalytic process. In organic chemistry, hydrogenation of a C-Cl bond with deuterium is used to selectively label the aromatic ring for use in experiments dealing with the kinetic isotope effect.

It involves the study of the relative spatial arrangement of atoms within the molecules. Stereochemistry spans the entire spectrum of organic, inorganic, biological, physical and especially supramolecular chemistry. Stereochemistry includes methods for determining and describing these relationships and effect on the physical or biological properties and the way these relationships influence the reactivity of the molecules.

Spectroscopy is used in physical and analytical chemistry because atoms and molecules have unique spectra. As a result, these spectra can be used to detect, identify and quantify information about the atoms and molecules. There are different types of spectroscopic techniques which can be used to identify organic molecules.

A domino reaction is a transformation that installs two or more bonds under identical conditions. The advantages of methods that construct complex molecules in a single reaction are self-evident, providing both atom and step economy.

Fluorous chemistry involves the use of perfluorinated compounds or perfluorinated substituents to facilitate recovery of a catalyst or reaction product. Perfluorinated groups impart unique physical properties including high solubility in perfluorinated solvents. This property can be useful in organic synthesis and separation methods such as solid phase extraction. Fluorous techniques are applicable to both green chemical process development and chemical discovery research. Fluorous chemistry improves productivity through efficient purification.

It is a major class of organic chemical compounds characterized by the fact that some or all the atoms in their molecules are joined in rings containing at least one atom of an element other than carbon. Among the various clinical applications, heterocyclic compounds have a considerable active role as anti-bacterial, anti-viral, anti-fungal, anti-inflammatory, and anti-tumor drugs.

Green Chemistry is described as the protection of environment from pollution. It comprises a new approach to the synthesis, processing and application of chemical substances, thus diminishing the hazards for human health and environmental pollution. It also focusses on such problems as atom economy, toxicity, solvents, energy consumption, use of raw materials from renewable resources and decomposition of the chemical products to simple non-toxic substances that are compatible with the environment.

Computational Chemistry is the use of computer simulation to predict, understand, or explain chemical reactivity. It is a branch of chemistry that uses computer simulation to assist in solving chemical problems. It uses methods of theoretical chemistry, incorporated into efficient computer programs, to calculate the structures and properties of molecules and solids.

Biotransformation means chemical alteration of chemicals such as nutrients, amino acids, toxins, and drugs in the body. It is also needed to render nonpolar compounds polar so that they are not reabsorbed in renal tubules and are excreted. Biotransformation of xenobiotics can dominate toxicokinetic and the metabolites may reach higher concentrations in organisms than their parent compounds. The metabolism of a drug or toxin in a body is an example of a biotransformation. Because of the high stereo- or regioselectivity combined with high product purity and high enantiomeric excesses, biotransformations can be technically superior to traditional chemical synthesis.

It is the study of the influence of organic chemicals on the environment which includes the study of the structure of organic compounds, physical properties of organic compounds, chemical properties of organic compounds and the reactivity of organic compounds to understanding the behavior of organic compounds not only in the pure form but also in the aqueous and nonaqueous solutions as well as the chemistry of complex mixtures to reflect the manner in which such chemicals exist in the environment.

MARKET ANALYSIS

Market Analysis Report

The European chemical industry is a €673 billion industry and the world’s top exporter and importer of chemicals, with a record €43.5 billion trade surplus in 2014. The European chemical industry currently comprises approximately 29,000 companies, employing roughly 1.2 million people directly and a further 3-4 million people indirectly, generating a turnover of over €500bn and net exports of nearly €50bn. In 2015 world chemicals turnover was valued at €3.53billion. the EU chemical industry ranks second, along with the US in total sales. When including both the EU and non-EU countries in europe, total sales reached €615 billion in 2015 or 17.5% of world chemical sales. It is predicted that the annual growth rate for the industry from 2014 to 2019 is 2.5% taking the overall market worth to over €854.5 by the end of 2019. The UK market has a forecasted growth of 2.6%, taking it to $85.5 billion by 2019. The strongest chemical market in Europe is the German market, with a 22.8% contribution to the industry value, followed by the Italian chemical market, worth 11.9% and the French market, standing at 11.8%.

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EuroSciCon, founded in 2001 is a UK based independent life science Events Company with predominantly business and academic client base. The key strategic objective of EuroSciCon is to communicate science and medical research between academia, clinical practice and the pharmaceutical industry. Most of its events are in Europe and London or live streamed. EuroSciCon expanded its operations to international in association with Meetings International, Singapore. All major meetings of EuroSciCon and Meetings International are accredited with Continued Professional Education (CPD), Continued Education (CE), Continued Medical Education (CME) Credits.